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You can't determine the amount of wavelength that equals 5 joules. Wavelength measures the length of the period while joules measure energy.
The radiation from the brightest or highest-power source carries the maximum energy.The shorter the wavelength of the radiation is, the more energy each photon carries.But you can easily radiate a lot more energy in long-wave radiation than in shorter-waveradiation, by simply radiating more photons.Example:Energy in 1 red-light photoncompared toenergy of 1 radio-wave photon at 2.5 GHz . . . . . 160,000 times as much energyHowever . . .Energy radiated inside a microwave oven at 2.5 GHz . . . 1,200 to 2,000 joules every secondEnergy radiated by a single red LED . . . . . 0.05 joule every second
The energy of the photon is 3,1631.e-19 joule.
Energy - of whatever kind - is measured in Joules. Power (energy per time unit) is measured in Watts.
Joules is a unit of energy; watts is a unit of power. You can't just convert it. The relationship between the two is: power = energy / time in units: watts = joules / second
You can't determine the amount of wavelength that equals 5 joules. Wavelength measures the length of the period while joules measure energy.
1.11 atto Joules.
Energy of microwaves is related to wavelength (lambda) and the speed of light (C). Energy equals Planck's Constant (6.6x10^34 Joules*second) multiplied by the speed of light (3.0X10^8 meters/second) divided by wavelength.
The energy is 4,6143.10e-19 joules.
Wavelength is 720 nanometers. Energy is 2.72 x 10-19 joules.
The energy of this photon is 3,7351.10e-19 joules.
The radiation from the brightest or highest-power source carries the maximum energy.The shorter the wavelength of the radiation is, the more energy each photon carries.But you can easily radiate a lot more energy in long-wave radiation than in shorter-waveradiation, by simply radiating more photons.Example:Energy in 1 red-light photoncompared toenergy of 1 radio-wave photon at 2.5 GHz . . . . . 160,000 times as much energyHowever . . .Energy radiated inside a microwave oven at 2.5 GHz . . . 1,200 to 2,000 joules every secondEnergy radiated by a single red LED . . . . . 0.05 joule every second
3.84 x 10-19 joules.
The energy of the photon is 3,1631.e-19 joule.
The energy is 18,263.10e4 joules.
Energy - of whatever kind - is measured in Joules. Power (energy per time unit) is measured in Watts.
Radiant energy does not exist in quantum units because radiant energy has no wavelength